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5 results on '"N. Rokhaya FAYE"'

1. RHYTHM: An Open Source Imaging Toolkit for Cardiac Panoramic Optical Mapping

Author

Christopher Gloschat, Kedar Aras, Shubham Gupta, N. Rokhaya Faye, Hanyu Zhang, Roman A. Syunyaev, Roman A. Pryamonosov, Jack Rogers, Matthew W. Kay, and Igor R. Efimov

Subjects
Medicine, Science
Abstract

Abstract Fluorescence optical imaging techniques have revolutionized the field of cardiac electrophysiology and advanced our understanding of complex electrical activities such as arrhythmias. However, traditional monocular optical mapping systems, despite having high spatial resolution, are restricted to a two-dimensional (2D) field of view. Consequently, tracking complex three-dimensional (3D) electrical waves such as during ventricular fibrillation is challenging as the waves rapidly move in and out of the field of view. This problem has been solved by panoramic imaging which uses multiple cameras to measure the electrical activity from the entire epicardial surface. However, the diverse engineering skill set and substantial resource cost required to design and implement this solution have made it largely inaccessible to the biomedical research community at large. To address this barrier to entry, we present an open source toolkit for building panoramic optical mapping systems which includes the 3D printing of perfusion and imaging hardware, as well as software for data processing and analysis. In this paper, we describe the toolkit and demonstrate it on different mammalian hearts: mouse, rat, and rabbit.

Published
2018
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5. RHYTHM: An Open Source Imaging Toolkit for Cardiac Panoramic Optical Mapping

Author

R. A. Syunyaev, Igor R. Efimov, Hanyu Zhang, Kedar Aras, Christopher R Gloschat, N. Rokhaya Faye, Shubham Gupta, Matthew W. Kay, Jack M. Rogers, and Roman Pryamonosov

Subjects
0301 basic medicine, Computer science, Science, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Field of view, 030204 cardiovascular system & hematology, Field (computer science), Article, 03 medical and health sciences, Mice, 0302 clinical medicine, Optical imaging, Imaging, Three-Dimensional, Optical mapping, Animals, Computer vision, Multidisciplinary, Monocular, business.industry, Cardiac electrophysiology, Optical Imaging, Heart, Fluorescence, Rats, 030104 developmental biology, Open source, Medicine, Artificial intelligence, Rabbits, business, Perfusion, Software
Abstract

Fluorescence optical imaging techniques have revolutionized the field of cardiac electrophysiology and advanced our understanding of complex electrical activities such as arrhythmias. However, traditional monocular optical mapping systems, despite having high spatial resolution, are restricted to a two-dimensional (2D) field of view. Consequently, tracking complex three-dimensional (3D) electrical waves such as during ventricular fibrillation is challenging as the waves rapidly move in and out of the field of view. This problem has been solved by panoramic imaging which uses multiple cameras to measure the electrical activity from the entire epicardial surface. However, the diverse engineering skill set and substantial resource cost required to design and implement this solution have made it largely inaccessible to the biomedical research community at large. To address this barrier to entry, we present an open source toolkit for building panoramic optical mapping systems which includes the 3D printing of perfusion and imaging hardware, as well as software for data processing and analysis. In this paper, we describe the toolkit and demonstrate it on different mammalian hearts: mouse, rat, and rabbit.

Published
2018

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